At a glance
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A Pilot Clinical Trial of a New Neuromodulation Device for Acute Attacks of Migraine in Children and Adolescents Visiting the Emergency Department
In Brief
A Phase 3 clinical trial evaluating Ketorolac, Metoclopramide, and 3 other interventions for Migraine Disorders. Completed, enrolled 22 participants across 1 site.
Detailed Summary
Migraine is a neurological disease characterized by severe and recurrent headaches. Children and adolescents with migraine often present to the emergency department (ED) with acute attacks, where migraine accounts for up to \~30% of all pediatric ED visits for headache. Based on the limited evidence, many centers have adopted protocols whereby children and adolescents who visit the ED with acute attacks of migraine are treated with an IV neuroleptic (metoclopramide or prochlorperazine) and an IV non-steroidal anti-inflammatory (ketorolac). This combination of interventions is largely considered to be standard of care despite no rigorous evidence to support this practice. Side effect rates with the neuroleptics (metoclopramide or prochlorperazine) are considerable. Therefore, the current standard of care for managing children and adolescents visiting the ED with acute attacks of migraine poses concern to patients and is associated with significant pain and frequent side effects. Over the past few years, there has been a growth in research investigating the efficacy and safety of non-invasive neuromodulation for the management of acute attacks of migraine. At present, there are several commercially available, non-invasive neuromodulation devices that effectively and safely treat acute attacks of migraine in adults. Because none of these devices have a high level evidence in children, adolescents, nor in the ED setting, there is clinical equipoise as to which device would be most appropriate to study for treating children and adolescents visiting the ED with acute attacks. Throughout our patient engagement work, children and adolescents with migraine have identified that they are interested in trying remote electrical neuromodulation for treating migraine attacks in the ED. The investigators completed a pilot randomized controlled trial (RCT) to determine the feasibility and acceptability of executing a phase III RCT, in which children and adolescents visiting the ED with acute attacks of migraine were randomized to REN or standard of care IV treatment. The trial had two phases: initially the design was a parallel-group design, and after 14 months of recruitment to that design, an amendment was made to allow participants to cross over to the other treatment arm if the initial intervention was not effective, in a crossover design. This change was made in response to participant and staff feedback around the parallel-group design.
Study Details
Timeline
Interventions
Intervention in syringe for target dose of 0.5 mg/kg, maximum 30 mg of ketorolac (1 mL), and administer as a direct IV push over 1-5 minutes
Intervention in 50 mL mini bag of normal saline (0.9% NaCl) for target dose of 0.15 mg/kg, maximum 10 mg of metoclopramide (2 mL), and administer as infusion over 15-30 minutes
The REN device is a battery-powered, wirelessly controlled neuromodulation device that attaches via armband to the upper arm. The REN device is controlled by a smartphone application and administers electrical stimulation to the local C and Aδ nociceptive sensory nerves of the upper arm. This stimulation is achieved using a symmetrical, biphasic, square pulse, modulated at a frequency between 100-120 Hz. Each pulse has a width of 400 µs and the user, via the smartphone application, can adjust the output current to apply a maximum of 40 mA. Each stimulation session occurs over 45 minutes and each device can administer up to 12 stimulation sessions.
0.9% NaCl will be administered to participants through IV in identical dosages, methods, and duration as the ketorolac and metoclopramide interventions described above.
The sham REN device is identical to the active REN device but the stimulation parameters are different, administering a modulated symmetrical biphasic square electrical pulse, modulated frequency of \~0.083 Hz and a modulated pulse width of 40-550 µ. These sham parameters are designed to induce a sensation that will be perceptible to participants, similar to stimulation from the active REN device, but at a frequency that is low enough so as to not modulate the nociceptive sensory nerves.